Hammer with nail start accessory, and method

ABSTRACT

A hammer device is provided for facilitating the driving, countersinking, and removal of relatively small fasteners, such as penny nails. A hammer includes a handle that can define an on-board tool storage area. A nail start accessory can include a tool portion and a nail holder portion. The tool portion can have a first end and a second end, with the nail holder portion being arranged at one of the first end and the second end. The on-board tool storage area of the hammer can be configured to removably store the nail start accessory substantially within the handle.

FIELD OF THE INVENTION

The present teachings relate to a hammer. In particular, the presentteachings relate to a hammer device having an on-board tool storage areafor a nail start accessory that can help facilitate the driving andremoval of relatively small fasteners, such as penny nails.

BACKGROUND OF THE INVENTION

Efficiently driving and removing small fasteners, such as penny nails,by way of a hammer can be a challenging task. Positioning, holding, anddriving small fasteners into a desired location can be particularlydifficult. Moreover, removing unwanted or improperly driven smallfasteners can be challenging as it can lead to the damage of wood trim,or other soft material. Known fastener holding tools assist in holdingfasteners as one starts to drive them into a surface, but can becumbersome to use and do not provide a way to remove previously drivenfasteners with the same tool, see for example, U.S. Pat. Nos. 4,843,923and 4,631,985. Thus, to be able to drive and/or remove small fasteners,it has been required to carry various different tools, including (i) ahammer, (ii) a fastener holding tool, (iii) an extractor, and/or (iv) anail set.

Accordingly, there exists a need for an all-in-one hammer device thatcan conveniently hold, drive, countersink, and/or remove smallfasteners. Furthermore, there also exists a need for a tool that canposition and hold one or more nails at the time of initial driving.Further still, there exists a need for such a tool that can extractpreviously driven fasteners while causing little or no damage to asurface.

SUMMARY OF THE INVENTION

According to one embodiment, the present teachings disclose a hammerdevice including a handle defining an on-board tool storage area formedwithin the handle. The hammer device can also include a nail startaccessory including a tool portion and a nail holder portion. The toolportion can have a first end and a second end, with the nail holderportion being arranged at one of the first end and the second end. Theon-board tool storage area of the hammer can be configured to removablystore the nail start accessory substantially within the handle.

According to another embodiment, the present teachings disclose a methodof driving a fastener into a surface. The method can include providingthe hammer device as set forth in the previous paragraph. The methodfurther includes removing the nail start accessory from the on-boardtool storage area of the handle of the hammer. The method can includeinserting a fastener into the nail holder portion of the nail startaccessory, positioning the nail holder portion in a location where it isdesired to locate the fastener, and driving the fastener into thedesired location on the surface with the hammer.

According to yet another embodiment, the present teachings disclose ahammer device including a hammer having an on-board tool storage area.The hammer device can include a nail start accessory including anelongate tool portion and a nail holder portion. The nail holder portioncan be pivotably attached to an end of the elongate tool portion, andone of a nail set and a nail extractor can be formed at an opposite endof the elongate tool portion. The on-board tool storage area of thehammer can be configured to removably store the nail start accessory onthe hammer.

According to a still further embodiment, the present teachings disclosea handheld tool including a tool portion having a first end and a secondend. The handheld tool can further include a holder portion including afastener holding structure and being arranged at one of the first endand the second end of the tool portion. A tool head can be arranged atthe other of the first end and the second end of the tool portion.

Additional features and advantages of various embodiments will be setforth, in part, in the description that follows, and, in part, will beapparent from the description, or may be learned by practice of variousembodiments. The objectives and other advantages of various embodimentswill be realized and attained by means of the elements and combinationsparticularly pointed out in the description herein.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a perspective view of the hammer device according to thepresent teachings, with the nail start accessory inserted into andremoved from the hammer;

FIG. 2 is a side view of the hammer device of the present teachings;

FIG. 3 is a schematic, cross-sectional side view of the hammer device ofthe present teachings;

FIG. 4 shows a cross-sectional side view of the handle of the hammerwith the nail start accessory being removed therefrom;

FIG. 5 shows a cross-sectional side view of the handle of the hammerwith the nail start accessory being inserted therein;

FIG. 6 shows a perspective view of the bottom end of the handle of thehammer with the nail start accessory being inserted therein;

FIG. 7 shows a perspective view of the bottom end of the handle of thehammer with the nail start accessory being removed therefrom;

FIG. 8 shows a perspective view of the bottom end of the handle of thehammer with the nail start accessory being secured thereto;

FIG. 9 shows a perspective view of the nail start accessory according toan embodiment of the present teachings;

FIG. 10 shows a perspective view of the nail start accessory of FIG. 9with the nail holder portion being pivoted upwardly;

FIG. 11 shows a perspective view of the nail holder portion of the nailstart accessory of FIGS. 9 and 10 according to various embodiments;

FIG. 12 shows a top view of the nail holder portion of FIG. 11 accordingto various embodiments;

FIG. 13 shows a perspective view of the elongate tool portion of thenail holder portion of FIGS. 9 and 10;

FIG. 14 shows a perspective view of the nail start accessory accordingto another embodiment of the present teachings;

FIG. 15 shows a top view of the elongate tool portion of the nail startaccessory of FIG. 14;

FIG. 16 shows a side view of the elongate tool portion of the nail startaccessory of FIG. 14;

FIGS. 17-20 show various tools that can be formed at an end of theelongate tool portion of the nail start accessory according to variousembodiments;

FIG. 21 shows the nail start accessory of FIG. 9 being used to drive afastener into a surface; and

FIG. 22 shows the nail start accessory of FIG. 9 being used tocountersink a fastener after it has been driven into the surface.

It is to be understood that both the foregoing general description andthe following detailed description are exemplary and explanatory only,and are intended to provide an explanation of various embodiments of thepresent teachings.

DESCRIPTION OF THE INVENTION

Referring to FIG. 1, the hammer device 100 of the present teachings isshown. The hammer device 100 can include a hammer 30 and a nail startaccessory 40. The hammer 30 can include an on-board tool storage area 80(shown in FIG. 4) formed in a handle 28 of the hammer 30 that is shapedto receive and securely store the nail start accessory 40. When the nailstart accessory 40 is housed in the on-board tool storage area 80, thehammer 30 can be used to drive and remove various-sized fasteners in themanner of a convention hammer.

As will be described in more detail below, when it is desired toaccurately hold, drive, and/or countersink a small fastener, such as apenny nail, brad, tack, screw and the like, the nail start accessory 40can be removed from the on-board tool storage area 80 and used toperform one or more of such functions. The nail start accessory 40 canalso be designed to incorporate other tools, such as a tool to removeunwanted or improperly driven fasteners, a tool to countersinkfasteners, and the like. When a user has completed using the nail startaccessory 40, they can readily insert it back into the on-board toolstorage area 80 of the handle 28. The hammer 30 can be used as aconventional hammer with or without the nail start accessory 40 beinginserted in the on-board tool storage area 80.

Referring to FIGS. 2 and 3, the hammer device 100 of the presentteachings is shown with the nail start accessory 40 inserted into thehandle 28 of the hammer 30. The hammer 30 can include a shaft 24, a head26, and a handle 28. As shown in cross-section in FIG. 3, a portion ofthe shaft 24 can be arranged to be surrounded by the handle 28. The head26 can be made from a metal, such as forged steel, or any other solid,durable, and hard material, such as fiberglass. The head 26 can includea striking face 32 and a claw 34. The claw 34 can be sized and shaped toallow a user to extract standard sized fasteners, in the manner of aconventional hammer.

As shown in FIG. 3, the shaft 24 of the hammer 30 can be integrallyformed with the head 26. However, the shaft 24 of the hammer 30 can bealternatively formed as a separate piece from the head 26 of the hammer30. Like the head 26, the shaft 24 of the hammer 30 can be made from ametal, such as forged steel, or any other solid, durable, and hardmaterial, such as fiberglass or wood.

The handle 28 of the hammer 30 can be overmolded onto a portion of theshaft 24. Other processes can be used to form the handle 28 includinginjection molding, vacuum forming, compression molding, and the like. Aclose-up, cross-sectional view of the gripping end of the hammer 30 isshown in FIGS. 4 and 5, where the handle 28 is shown overmolded onto anend of the shaft 24. The handle 28 can also be formed to include acavity forming the on-board tool storage area 80. The on-board toolstorage area 80 is shaped to house the nail start accessory 40.

As shown in FIG. 4, a portion of the on-board tool storage area 80 canbe defined by the shaft 24 of the hammer 30. The remaining portion ofthe on-board tool storage area 80 can be defined by the handle 28. Theon-board tool storage area 80 can include a first elongate cavity 82 anda second end cavity 84. In FIGS. 4 and 5, the on-board tool storage area80 is formed within the handle 28 but it could be arranged at leastpartially on an exterior of the handle 28.

The handle 28 can be ergonomically shaped to allow a user's hand tocomfortably grasp and securely grip the shaft 24 of the hammer 30. Forexample, referring to FIGS. 2 and 3, the handle 28 can be shaped toallow a user's fingers to wrap around the handle while the thumbnaturally lands on a thumb rest area 36. Other shapes for the exteriorportion of the handle 28 are also contemplated by the present teachings.

The handle 28 can be formed from rubber, silicon, or fiberglass, or anyother durable and resilient material. The handle 28 can include one ormore sections made from one or more different materials, with thegrippable area being made from a durable, resilient, and slip-resistantmaterial, such as, rubber or silicon, and the like. A portion of thehandle 28 of the hammer 30 can be defined in whole or part by the shaft24.

One embodiment of the nail start accessory 40 is shown in FIG. 9. Thenail start accessory 40 can include a tool portion 42 and a nail holderportion 56. The tool portion 42 can pivot with respect to the nailholder portion 56 through a pivot pin 96, or an equivalent structure.Additional details of the nail start accessory 40 will be discussed morefully below.

Referring to FIG. 5, the first cavity 82 of the on-board tool storagearea 80 can be sized and shaped to house the tool portion 42 of the nailstart accessory 40. The second end cavity 84 of the on-board toolstorage area 80 can be sized and shaped to hold the nail holder portion56 of the nail start accessory 40. As will be more fully discussedbelow, the second end cavity 84 can be shaped to secure the nail holderportion 56 to the handle 28 of the hammer 30, by way of, for example, asnap fit and/or any other type of latching mechanism.

In this regard, FIG. 6 illustrates a close-up view of the nail holderportion 56 of the nail start accessory 40 being secured by a snap-fitstructure to the handle 28. The snap-fit structure can be formed as partof a peripheral rim area 58 of the second end cavity 84, which islocated at the base of the handle 28. Referring to FIG. 7, the snap-fitcan be achieved by the formation of one or more snap features 50, 52,and 54 integrally formed as part of the peripheral rim 58 of the handle28. Alternatively, the snap features 50, 52, and 54 can be formed byinserts or any other structure formed separately and secured to theperipheral rim 58.

The snap features 50, 52, and 54 are arranged to frictionally engagewith and secure one or more portions of the nail holder portion 56 ofthe nail start accessory 40. For example, the snap features 50, 52, and54 can be arranged to engage with lateral flanges 86 formed on eitherside of the nail holder portion 56. The walls defining the snap features50, 52, and 54 are made to be sufficiently strong so as to be able toresiliently and removably hold the nail start accessory 40 within theon-board tool storage area 80 of the handle 28, while at the same timeensuring that the handle 28 does not feel weak when the nail startaccessory 40 is removed from the hammer 30. In general, the handle 28 ofthe hammer 30 is shaped to house and secure the nail start accessory 40in a manner such that any vibrations occurring when the hammer 30 isbeing used are minimized, or substantially eliminated. The snap features50, 52, and 54 can be formed at the time of formation of the handle 28,such as during an overmolding process.

Referring to FIG. 6, when the nail start accessory 40 is secured withinthe on-board tool storage area 80, a bottom portion of the nail holderportion 56 can be visible and can form a substantially flush surfacewith a bottom end of the handle 28 of the hammer 30. The nail holderportion 56 can include finger grip areas 60 on either side thereof. Eachfinger grip area 60 is surrounded by a lateral flange 86 of the nailholder portion 56, thereby forming a concavity so as to provide fingeror thumb receiving areas. Together, both finger grip areas 60 allow auser to obtain a firm grip on the nail holder portion 56. This isespecially desirable when slidably removing the nail start accessory 40from the handle 28, and overcoming the force of the snap fit achieved bythe snap features 50, 52, and 54. The finger grip areas 60 also allow auser to firmly grip the nail start accessory 40 while it is beinginserted into the handle 28, as well as when it is desired to pivot thenail holder portion 56 with respect to the elongated tool portion 42.

Referring to FIG. 8, an aperture 90 can be provided within the handle28. Among other uses, the aperture 90 can be used to secure the nailstart accessory 40 within the handle 28. A tie-wrap 92, or similardevice, can be threaded through the aperture 90 and secured around thenail holder portion 56 of the nail start accessory 40 to prevent it frombeing removed from the hammer 30. The aperture 90 can be formed in theshaft and can extend though the handle 28. In this manner, the nailstart accessory 40 can be secured in a tamperproof manner to the handle28 of the hammer 30. Securing the nail start accessory 40 to the handle28 can be beneficial during shipping and when the hammer device 100 isdisplayed in a retail environment, for example.

FIGS. 9 and 10 show detailed views of the nail start accessory 40 of oneembodiment of the present teachings. The nail start accessory 40 caninclude a tool portion 42 and a nail holder portion 56. The tool portion42 can be formed as an elongate rod including a first end 44 and asecond end 46. In the vicinity of the second end 46, the elongated toolportion 42 can be pivotally connected to the nail holder portion 56. Thetool portion 42 can be made from a metal, such as forged steel, or anyother solid, durable, and hard material. The nail holder portion 56 canbe made in whole, or in part, of a resilient material, such as rubber orsilicon. The nail holder portion 56 is preferably made of a non-marringmaterial so as to not mark a surface it is placed in contact with.

According to the embodiment shown in FIGS. 9 and 10, the elongated toolportion 42 can form a nail set for countersinking nails or otherfasteners. In particular, the first end 44 of the elongated tool portion42 can be arranged to taper to a tip having a flat portion 92. At thesecond end 46 of the elongated tool portion 42, a flat end surface 94can form a strikable surface. In use, the nail holder portion 56 can bepivoted so that the flat end surface 94 of the elongated tool portion 42is exposed. This position allows the end surface 94 to be struck by thehammer 30 resulting in the countersinking of a fastener which iscontacted by the flat tip portion 92 of the elongated tool portion 42,see FIGS. 10 and 22.

When it is desired to insert the elongated tool portion 42 back into thehandle 28, the nail holder portion 56 can be pivoted back to theposition shown in FIG. 9 by gripping the finger grip areas 60 andpivoting the nail holder portion 56. The tool portion 42 can then bere-inserted into the first cavity 82 of the on-board tool storage area80 of the handle 28 until the nail holder portion 56 snaps into placewithin the second end cavity 84.

Referring to FIG. 11, the nail holder portion 56 of the nail startaccessory 40 is shown detached from the elongated tool portion 42. Oneend of the nail holder portion 56 can include a head portion 62 that isformed with a fastener holding groove 64. The opposite end of the nailholder portion 56 can include one or more projecting ears 70 forsupporting the pivotable connection with the elongated tool portion 42.At least a portion of the nail holder portion 56 can be made of aresilient material that allows it to frictionally hold one or morefasteners within the fastener holding groove 64. The resilience of thenail holder portion 56 provides protection to a surface from aninadvertent missed strike by the hammer 30. The head portion 62 of thenail holder portion 56 can have any size, shape, and thickness, and canbe arranged to insert into, and be securely housed within, acomplimentarily-shaped portion of the on-board tool storage area 80 ofthe handle 28.

The fastener holding groove 64 of the nail holder portion 56 can bearranged to securely hold fasteners of various sizes. Referring to FIGS.11 and 12, the fastener holding groove 64 can be generally V-shaped suchthat different sized fasteners can be snuggly held along a length of thegroove 64. At any particular time, one or more fasteners can be heldwithin the groove 64. While the groove 64 is capable of holdingfasteners of various sizes, it can be of a general size and shape forholding relatively small-sized fasteners, such as penny nails. As bestshown in FIG. 12, the V-shaped groove 64 can also be formed with one ormore enlarged areas or openings, such as openings 66, 68. These enlargedopenings 66, 68 provide additional areas for frictionally holdingfasteners.

As shown in FIG. 11, the nail holder portion 56 can include one or moreprojecting ears 70. The ears 70 can be arranged to provide a connection,such as a pivotable connection, between the nail holder portion 56 andthe elongated tool portion 42. For example, the ears 70 can be providedwith apertures 72 into which a pivot pin 96, or similar structure, suchas a rivet, can be inserted to achieve the pivotable connection betweenthe nail holder portion 56 and the elongate tool portion 42, see FIGS. 9and 13.

A locking mechanism can be provided between the nail holder portion 56and the tool portion 42 in order to temporarily lock the pivot anglebetween the nail holder portion 56 and the tool portion 42 at one ormore pivot angles. The locking mechanism can include one or more dimples74 formed on inner surfaces of the ears 70 of the nail holder portion 56which are arranged to receive resilient detents or pins 76 formed on theelongated tool portion 42. The dimples 74 can be positioned and shapedso as to receive the resilient detents 76 as the nail holder portion 56is pivoted with respect to the tool portion 42. In this manner, theelongate tool portion 42 can be arranged to be temporarily lock at oneor more preset pivot angles with respect to the nail holder portion 56.

FIG. 14 shows an alternative tool design for use at the first end 44 ofthe elongate tool portion 42 of the nail start accessory 40. FIGS. 15and 16 also show this alternative design for the elongate tool portion42 but without the nail holder portion 56 being pivotally attachedthereto. In this alternative design, the first end 44 can be formed witha nail extractor 48 including a notch 78. The nail extractor 48 can bein the form of a chisel tip or claw, or any shape which can readilyreach and extract a previously driven fastener. While the chisel and thenotch 78 of the nail extractor 48 can be designed to extract varioussized fasteners, it can be made of a general size and shape forextracting relatively small-sized fasteners, such as penny nails. Thenail extractor 48 can be designed to minimize or eliminate thepossibility of damage to a surface, which oftentimes is made of a softmaterial, such as is the case with wood trim. The nail extractor 48 canbe integrally formed in one-piece with the elongate tool portion 42 ofthe nail start accessory 40. The nail extractor 48 can be made frommetal, such as forged steel, or some other solid, durable, and hardmaterial, such as a hard plastic. The nail extractor 48 can beovermolded with, or made entirely from, a non-marring material.

FIGS. 17-20 show still further alternative tool designs for the firstend 44 of the elongate tool portion 42 of the nail start accessory 40.FIG. 17 shows a chisel tip; FIG. 18 shows a pointed tip, or prick punchtip; FIG. 19 shows a screwdriver tip; and FIG. 20 shows a hex tip whichcan be used to receive bits having different shapes, such as ascrewdriver bit, a Phillips bit, an Allen wrench bit, and the like.

Due to their relatively small size, initially holding and driving pennynails can be extremely challenging, even for experienced handymen.Subsequently countersinking and removing penny nails can also becumbersome requiring additional tools. The hammer device 100 of thepresent teachings allows penny nails (and other fasteners) to be readilysupported at the time they are being initially driven into a surface,and to be quickly and easily countersunk and extracted, if needed. Thehammer device 100 can be especially useful when installing finishingtrim using small fasteners, or installing other delicate pieces.However, the hammer device 100 can also be used as a conventional hammerwith the nail start accessory 40 being stored or removed from the handle28 of the hammer 30.

In use of the hammer device 100 of the present teachings, in order tomore readily drive a penny nail into a surface, a user can remove thenail start accessory 40 from the on-board tool storage area 80 of thehammer 30. The nail holder portion 56 is then pivoted with respect tothe elongate tool portion 42 into a position as desired by the user. Asshown in FIG. 21, after inserting a penny nail into the nail holderportion 56 of the nail start accessory 40, the user can accuratelyposition and hold the penny nail in the location on the surface where itis desired to drive the penny nail. While holding the elongate toolportion 42 and/or the nail holder portion 56 of the nail start accessory40, the penny nail can be tapped into the surface with the hammer 30.Once the penny nail is partially driven into the surface, the nail startaccessory 40 can be moved out of contact with the nail, at which pointthe nail can be driven all of the way into the surface using the hammer30.

Referring to FIG. 22, where the nail is shown driven completely into thesurface, if it is desired to countersink the penny nail, the flat tip 92of the elongate tool portion 42 of the nail start accessory 40 can beplaced on the head of the nail, and the opposite end of the elongatetool portion 42 can be tapped at the flat end surface 94, therebycountersinking the nail below the surface plane.

When the user is done using the nail start accessory 40, it can beconveniently stored within the hammer 30 by pivoting the elongate toolportion 42 with respect to the nail holder portion 56, and sliding itback into the on-board tool storage area 80. At this point, the hammer30 can be used to drive and remove various sized fasteners in the mannerof a convention hammer.

Accordingly, the hammer device 100 of the present teachings allows auser to conveniently maintain several related tools within a singledevice while making it relatively easy to hold, manipulate, drive,countersink, and remove small fasteners, such as penny nails.

Those skilled in the art can appreciate from the foregoing descriptionthat the present teachings can be implemented in a variety of forms.Therefore, while these teachings have been described in connection withparticular embodiments and examples thereof, the true scope of thepresent teachings should not be so limited. Various changes andmodifications may be made without departing from the scope of theteachings herein.

1. A hammer device comprising: a hammer including a handle, the handledefining an on-board tool storage area formed within the handle; and anail start accessory including a tool portion and a nail holder portion,the tool portion having a first end and a second end with the nailholder portion being arranged at one of the first end and the secondend; wherein the on-board tool storage area of the hammer is configuredto removably store the nail start accessory substantially within thehandle.
 2. The hammer device of claim 1, wherein the nail holder portionis arranged to pivot with respect to the tool portion.
 3. The hammerdevice of claim 2, further comprising a locking mechanism between thenail holder portion and the tool portion such that a pivot angle betweenthe nail holder portion and the tool portion is lockable in at least onesetting.
 4. The hammer device of claim 2, wherein the nail holderportion is capable of being pivoted into a position that exposes an endsurface of the tool portion such that the end surface is directlystrikeable by the hammer.
 5. The hammer device of claim 1, wherein theon-board tool storage area of the handle is shaped to removably securethe nail holder portion of the nail start accessory to the handle. 6.The hammer device of claim 5, wherein a portion of the on-board toolstorage area of the handle is defined by a peripheral rim which isconfigured to engage with and secure the nail holder portion of the nailstart accessory to the handle.
 7. The hammer device of claim 6, whereinthe peripheral rim includes at least one snap feature which isconfigured to engage with and secure the nail holder portion of the nailstart accessory to the handle.
 8. The hammer device of claim 7, whereinthe at least one snap feature of the peripheral rim is integrally formedwith the handle.
 9. The hammer device of claim 1, wherein the nailholder portion includes a fastener holding groove.
 10. The hammer deviceof claim 9, wherein the fastener holding groove includes a substantiallyV-shaped groove including at least one notch formed along the groove.11. The hammer device of claim 1, wherein the nail holder portion isformed of a resilient material.
 12. The hammer device of claim 1,wherein a nail set is arranged at the other of the first end and thesecond end of the tool portion.
 13. The hammer device of claim 1,wherein a nail extractor is arranged at the other of the first end andthe second end of the tool portion.
 14. The hammer device of claim 13,wherein the nail extractor includes a chisel tip and a notch.
 15. Thehammer device of claim 1, wherein one of a i) chisel, ii) a prick punch,iii) a screwdriver, and iv) a hex tip capable of receiving bits, isarranged at the other of the first end and the second end of the toolportion.
 16. A method of driving a fastener into a surface comprising:providing the hammer device of claim 1; removing the nail startaccessory from the on-board tool storage area of the handle; inserting afastener into the nail holder portion of the nail start accessory;positioning the nail holder portion and the fastener in a location onthe surface where it is desired to locate the fastener; and driving thefastener into the desired location with the hammer.
 17. The method ofclaim 16, further including abutting one of the first end and the secondend of the tool portion against the driven fastener and countersinkingthe fastener with the hammer.
 18. A hammer device comprising: a hammerincluding an on-board tool storage area; and a nail start accessoryincluding an elongate tool portion and a nail holder portion, the nailholder portion being pivotably attached to an end of the elongate toolportion; and one of a nail set and a nail extractor being formed at anopposite end of the elongate tool portion; wherein the on-board toolstorage area of the hammer is configured to removably store the nailstart accessory on the hammer.
 19. The hammer device of claim 18,wherein the on-board tool storage area is formed within a handle of thehammer.
 20. The hammer device of claim 19, wherein a portion of thehandle forming the on-board tool storage area includes at least one snapfeature which is configured to engage with and secure the nail holderportion of the nail start accessory within the handle.
 21. The hammerdevice of claim 19, wherein the handle is formed by an overmoldingprocess.
 22. A handheld tool comprising: a tool portion having a firstend and a second end; a holder portion including a fastener holdingstructure, the holder portion being arranged at one of the first end andthe second end of the tool portion; wherein a tool head is arranged atthe other of the first end and the second end of the tool portion. 23.The tool of claim 22, wherein the holder portion is arranged to pivotwith respect to the tool portion.
 24. The tool of claim 23, furthercomprising a locking mechanism between the holder portion and the toolportion such that a pivot angle between the holder portion and the toolportion is lockable in at least one setting.
 25. The tool of claim 23,wherein the holder portion is capable of being pivoted into a positionthat exposes an end surface of the tool portion to being directly struckby a tool.
 26. The tool of claim 22, wherein the fastener holdingstructure includes a substantially V-shaped groove including at leastone notch formed along the groove.
 27. The tool of claim 22, wherein theholder portion is formed of a resilient material.
 28. The tool of claim22, wherein the tool head is a nail set.
 29. The tool of claim 22,wherein the tool head is a nail extractor.
 30. The tool of claim 29,wherein the nail extractor includes a chisel tip and a notch.
 31. Thetool of claim 22, wherein the tool head is one of a i) chisel, ii) aprick punch, iii) a screwdriver, and iv) a hex tip capable of receivingbits.
 32. A hammer device comprising a hammer and including an on-boardtool storage area being configured to removably store the handheld toolof claim 22 on the hammer.